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1. Manufacturers’ performance with industrial symbiosis under cap-and-trade policy considering waste supply-demand mismatch. (2025). Chai, Qiangfei ; Edwin, T C ; Cao, Quanyao ; Xiao, Zhongdong.
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2. What drives the success of online platforms for industrial symbiosis? An agent-based model. (2025). Nastasi, Alberto ; Fraccascia, Luca ; Mollica, Melissa.
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3. Blockchain-based concept for total site heat integration: A pinch-based smart contract energy management in industrial symbiosis. (2024). Manan, Zainuddin Abdul ; Wan, Sharifah Rafidah ; Varbanov, Petar Sabev ; Martincova, Jana Victoria ; Chin, Hon Huin.
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4. An overview of Brazilian companies readiness to implement industrial symbiosis. (2024). Gobbo, Jose Alcides ; Agudo, Fabiana Liar ; Bezerra, Barbara Stolte.
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5. Designing regional industrial symbiosis networks: The case of Apulia region. (2023). Zaza, Valeria ; Fraccascia, Luca ; Giannoccaro, Ilaria.
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6. Going in Circles: Key Aspects for Circular Economy Contributions to Agro-industrial Cooperatives. (2023). Gomes, Romulo Henrique ; Barros, Murillo Vetroni ; Piekarski, Cassiano Moro ; Ribeiro, Bruno Silva.
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7. Holistic Framework to Data-Driven Sustainability Assessment. (2023). Pinto, Sara M ; Dias, Rui ; Peas, Paulo ; Estrela, Marco ; John, Lenin ; Henriques, Juan ; Ribeiro, Ines ; Cunha, Fernando ; Baptista, Antonio J ; Pilastri, Andre.
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8. Industrial Symbiosis to Circular Economy: What Does the Literature Reveal for a Successful Complex Industrial Area?. (2022). , Manda ; Ho, G ; Oughton, C ; Kurup, B.
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10. Potential Application of Blockchain Technology in Eco-Industrial Park Development. (2022). Manan, Zainuddin Abd ; Azreen, Siti Nor ; Wan, Sharifah Rafidah ; Varbanov, Petar Sabev.
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11. The Importance of Individual Actor Characteristics and Contextual Aspects for Promoting Industrial Symbiosis Networks. (2022). Broberg, Sarah ; Harfeldt-Berg, Lovisa ; Ericsson, Karin.
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13. Evaluating the Barriers to Industrial Symbiosis Using a Group AHP-TOPSIS Model. (2022). Liu, Weifeng ; Yang, Tian ; Cote, Raymond P ; Ye, Jinwen.
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14. Energy-based industrial symbiosis: a literature review for circular energy transition. (2021). Yazdanpanah, Vahid ; Fraccascia, Luca ; Capelleveen, Guido ; Yazan, Devrim Murat.
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15. A Qualitative-Based Study on Barriers to Change from Linear Business Model to Circular Economy Model in Built Environment—Evidence from Bangladesh. (2021). Hossain, Mir Sohrab ; Khatun, Mahfuja.
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16. Energy and resources cooperation for greenhouse gases emissions reduction of industrial sector. (2021). Pyakurel, Parakram ; Wright, Laurie.
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17. Circular Economy at the Firm Level: A New Tool for Assessing Maturity and Circularity. (2021). Borgianni, Yuri ; Sacco, Pasqualina ; Orzes, Guido ; Vinante, Christian.
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18. Industrial Symbiosis Implementation Potential—An Applied Assessment Tool for Companies. (2021). Dias, Rui ; Iten, Muriel ; Henriques, Juan ; Azevedo, Joo ; Ferreira, Ines ; Cunha, Fernando ; Asceno, Cristina ; Magalhes, Bruno.
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19. Research on the Knowledge-Sharing Incentive of the Cross-Boundary Alliance Symbiotic System. (2021). Zhang, Xiaoxing ; Gao, Changyuan.
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20. Innovative Circular Economy Models for the European Pulp and Paper Industry: A Reference Framework for a Resource Recovery Scenario. (2021). Fifer, Karmen ; Rios, Javier ; Paiva, Helena ; Westin, Gunnar ; Maurice, Christian ; Auriault, Camille ; Oleaga, Asier ; Bansal, Anurag ; Caas, Antonio ; Sopelana, Amaia.
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21. Understanding Hazardous Waste Exports for Disposal in Europe: A Contribution to Sustainable Development. (2021). Latorre, Pilar M ; Martinez-Nuez, Margarita ; Callao, Carmen.
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22. Social, Economic, and Institutional Configurations of the Industrial Symbiosis Process: A Comparative Analysis of the Literature and a Proposed Theoretical and Analytical Framework. (2021). Faria, Emilia ; Barreto, Cristiane ; Caldeira-Pires, Armando.
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23. An industrial symbiosis simulation game: Evidence from the circular sustainable business development class. (2021). Fraccascia, Luca ; Yazan, Devrim Murat ; Sabato, Alessandra.
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24. Fostering Circular Economy Through the Analysis of Existing Open Access Industrial Symbiosis Databases. (2020). Jato-Espino, Daniel ; Ruiz-Puente, Carmen.
    In: Sustainability.
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25. Institutional Lens upon Industrial Symbiosis Dynamics: The case of Persian Gulf Mining and Metal Industries Special Economic Zone. (2020). Noori, Shiva ; Korevaar, Gijsbert ; Ramirez, Andrea Ramirez.
    In: Sustainability.
    RePEc:gam:jsusta:v:12:y:2020:i:15:p:6192-:d:392818.

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26. Quantifying the direct network effect for online platforms supporting industrial symbiosis: an agent-based simulation study. (2020). Fraccascia, Luca.
    In: Ecological Economics.
    RePEc:eee:ecolec:v:170:y:2020:i:c:s0921800919308559.

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27. The Potential of Industrial Symbiosis: Case Analysis and Main Drivers and Barriers to Its Implementation. (2019). Azevedo, Susana G ; Godina, Radu ; Pimentel, Carina ; Neves, Angela.
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28. Exploring the Environmental Performance of Urban Symbiosis for Vertical Hydroponic Farming. (2019). Poulikidou, Sofia ; Martin, Michael ; Molin, Elvira.
    In: Sustainability.
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29. Current Status, Emerging Challenges, and Future Prospects of Industrial Symbiosis in Portugal. (2019). Azevedo, Susana G ; Godina, Radu ; Neves, Angela.
    In: Sustainability.
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30. An Assessment of European Information Technology Tools to Support Industrial Symbiosis. (2018). van Eetvelde, Greet ; Alva, Francisco Mendez ; Maqbool, Amtul Samie.
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31. Measuring the Readiness of SMEs for Eco-Innovation and Industrial Symbiosis: Development of a Screening Tool. (2018). Andersen, Maj Munch ; Schmiegelow, Andreas.
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32. Maturity models: identifying the state-of-the-art and the scientific gaps from a bibliometric study. (2017). Reis, Thalita Laua ; Oliveira, Otavio Jose ; Siqueira, Maria Augusta .
    In: Scientometrics.
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33. Non-technical barriers to (and drivers for) the circular economy through industrial symbiosis: A practical input. (2017). Lombardi, Rachel.
    In: ECONOMICS AND POLICY OF ENERGY AND THE ENVIRONMENT.
    RePEc:fan:efeefe:v:html10.3280/efe2017-001009.

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